I am trying to use R to "transform" my shapefile from LHS to RHS as shown below.

enter image description here

The original data (as shown in the LHS) is taken from the 2016 Canadian Census. It includes all dissemination areas (one of the smallest base units) in the City of Surrey, BC, Canada. The shape-files can be downloaded here.

The rationale to transform it into RHS is because typical areal interpolation functions, such as st_interpolate_aw from sf assume values are constant over unit area. I am hoping to interpolate census data for a different geographic unit, and the package that I use to do that make use of st_interpolate_aw. As a result, I was advised by someone to calculate the "population ecumene" of the shapefile. The person who sent me the RHS shapefile did his analysis in GIS, and he described his steps as follows:

  1. Estimate a measure of population density over the shapefile using a kernel interpolator

  2. Extract areas with reasonable levels of density (e.g. 50 ppl/km^2)

  3. Transform these extracted area to an integer mask

  4. Transform the mask into a shapefile and "mask out" (intersect) it with the original shapefile.

While these steps seem pretty straight-forward, it has been very challenging for me to implement it in R. I have try various spatial interpolation / smoothing techniques, including simple smoothing, idw, kriging, with no luck replicating or achieving the results. The closest I have come is with smooth_map function from the tmaptools library as follows.


## Read-in file, add `Pop_Den` column for population density
Surrey_census16_geom.sp <- readOGR("./Surrey_DA_geometry_16.shp"),
                        layer = "Surrey_DA_geometry_16")
Surrey_census16_geom.sp$Pop_Den <- Surrey_census16_geom.sp$Population / Surrey_census16_geom.sp$Shape.Area
## smooth_map doesn't seem to play well with `longlat` projections
Surrey_census16_proj.sp <- set_projection(Surrey_census16_geom.sp, projection = "eck4")
x <- smooth_map(Surrey_census16_proj.sp, "Pop_Den", unit.size = 100, smooth.raster =  T, extracting.method="grid", to.Raster = T)
xr <- x$raster

But then if I try to "extract" from the raster using code like xr>50 or focal(xr >= 50, w, sum, na.rm = T, pad = T ) (where w is simply defined as a 3*3 matrix of 1 since I'm not sure what to do with it), it seems to extract the entire polygon that doesn't match that criteria, rather than individual cells.

I would really appreciate if either

1) ... anyone can point out what I should do to carry out a kernel density estimation by population density and extract grid/raster cells based on a threshold (i.e. fix the code above)

2) ... anyone can recommend an alternative method to achieve the goal of "shrinking" areas of density polygons based on population density to achieve results like RHS

(Note: The RHS plot is created by comparing total population per polygon to a threshold. Here I'm hoping to compare by population density, so the actual outcome may differ)

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Browse other questions tagged or ask your own question.